Laser cooling techniques: standard and alternated optical molasses

Gomes, Naomy Duarte; Caracanhas, M. A.; Farias, Kilvia Mayre; Bagnato, Vanderlei Salvador

doi:10.1590/1806-9126-rbef-2017-0102

Cited by 3 publications

(1 citation statement)

References 14 publications

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“…The number and density of trapped atoms in a vapour-cell Zeeman trap are investigated experimentally and theoretically, and it is shown that this quantity is affected by the laser beam sizes, laser intensities, laser detunings, and magnetic-field gradients [19]. The interaction of neutral atoms with the radiation force in OMs is studied using a semi-classical method of the laser-cooling concept [20]. Particularly, since the magnitude of the repulsive force depends on the laser intensity, the power of rescattered light limits the number of trapped atoms.…”

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confidence: 99%

Optical forces on neutral atoms in the presence of fluctuating laser fields: numerical analysis

Bozorgzadeh¹,

Yousefi²,

Akbari³

2022

Commun. Theor. Phys.

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Doppler cooling of 88Rb atoms is studied in the presence of off-resonant red-detuned fluctuating laser fields. Using a semi-classical approach, we show that the relevant physical quantities in the cooling process, such as optical forces, damping coefficient, Doppler temperature, and atom number in the trap, are strongly affected by the laser amplitude and phase fluctuations. We found that the Doppler cooling limit is higher than the predicted Doppler theory for non-fluctuating lasers. This implies an additional heating mechanism exists due to the laser fluctuations. Furthermore, our numerical analysis shows that the effect of laser power stability on reducing the number of trapped atoms in an MOT is more substantial than the effect of laser linewidth.

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confidence: 99%